Transition analysis applied to third molar development in a Danish population

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Transition analysis applied to third molar development in a Danish population. / Arge, Sara; Wenzel, Ann; Holmstrup, Palle; Jensen, Niels D; Lynnerup, Niels; Boldsen, Jesper L.

In: Forensic Science International, Vol. 308, 110145, 2020.

Research output: Contribution to journalJournal articleResearchpeer-review

Harvard

Arge, S, Wenzel, A, Holmstrup, P, Jensen, ND, Lynnerup, N & Boldsen, JL 2020, 'Transition analysis applied to third molar development in a Danish population', Forensic Science International, vol. 308, 110145. https://doi.org/10.1016/j.forsciint.2020.110145

APA

Arge, S., Wenzel, A., Holmstrup, P., Jensen, N. D., Lynnerup, N., & Boldsen, J. L. (2020). Transition analysis applied to third molar development in a Danish population. Forensic Science International, 308, [110145]. https://doi.org/10.1016/j.forsciint.2020.110145

Vancouver

Arge S, Wenzel A, Holmstrup P, Jensen ND, Lynnerup N, Boldsen JL. Transition analysis applied to third molar development in a Danish population. Forensic Science International. 2020;308. 110145. https://doi.org/10.1016/j.forsciint.2020.110145

Author

Arge, Sara ; Wenzel, Ann ; Holmstrup, Palle ; Jensen, Niels D ; Lynnerup, Niels ; Boldsen, Jesper L. / Transition analysis applied to third molar development in a Danish population. In: Forensic Science International. 2020 ; Vol. 308.

Bibtex

@article{25d5339983ef4c7790176c362138a10d,
title = "Transition analysis applied to third molar development in a Danish population",
abstract = "INTRODUCTION: Age assessment based on dental development is often requested in order to assess whether an individual is older or younger than 18 years of age. There are several statistical approaches to estimate age based upon third molar development. The aim of this study was to apply the principles of transition analysis (TA) to a Danish reference material and to evaluate whether it was indicated to include a model that allows for logistic non-linearity as opposed to applying a model only allowing for logistic linearity. For this we chose to use the generalized additive model (gam) and the generalized linear model (glm), respectively.MATERIAL AND METHOD: A cross-sectional sample comprising 1302 panoramic radiographs of Danish subjects in the chronological age range of 13-25 years was included. All present third molars had been scored according to the 10-stage method of Gleiser and Hunt. Each transition from one stage to the subsequent stage was analyzed according to the statistical approach of TA and fitted with both the generalized linear model (glm) and the generalized additive model (gam). In order to assess whether gam or glm was more parsimonious for each transition individually, the Akaikon information criterion (AIC) was applied.RESULTS: The results emphasized the importance of applying a statistical model that sufficiently captures the spread of the age estimate. The AIC values showed that some transitions were sufficiently described by glm whereas for others the gam curves fitted significantly better.CONCLUSION: We recommend that for an age assessment tool based on TA, both a fitting allowing for non-linearity and one allowing only for linearity should be included.",
author = "Sara Arge and Ann Wenzel and Palle Holmstrup and Jensen, {Niels D} and Niels Lynnerup and Boldsen, {Jesper L}",
note = "Copyright {\textcopyright} 2020 Elsevier B.V. All rights reserved.",
year = "2020",
doi = "10.1016/j.forsciint.2020.110145",
language = "English",
volume = "308",
journal = "Forensic Science International",
issn = "0379-0738",
publisher = "Elsevier Ireland Ltd",

}

RIS

TY - JOUR

T1 - Transition analysis applied to third molar development in a Danish population

AU - Arge, Sara

AU - Wenzel, Ann

AU - Holmstrup, Palle

AU - Jensen, Niels D

AU - Lynnerup, Niels

AU - Boldsen, Jesper L

N1 - Copyright © 2020 Elsevier B.V. All rights reserved.

PY - 2020

Y1 - 2020

N2 - INTRODUCTION: Age assessment based on dental development is often requested in order to assess whether an individual is older or younger than 18 years of age. There are several statistical approaches to estimate age based upon third molar development. The aim of this study was to apply the principles of transition analysis (TA) to a Danish reference material and to evaluate whether it was indicated to include a model that allows for logistic non-linearity as opposed to applying a model only allowing for logistic linearity. For this we chose to use the generalized additive model (gam) and the generalized linear model (glm), respectively.MATERIAL AND METHOD: A cross-sectional sample comprising 1302 panoramic radiographs of Danish subjects in the chronological age range of 13-25 years was included. All present third molars had been scored according to the 10-stage method of Gleiser and Hunt. Each transition from one stage to the subsequent stage was analyzed according to the statistical approach of TA and fitted with both the generalized linear model (glm) and the generalized additive model (gam). In order to assess whether gam or glm was more parsimonious for each transition individually, the Akaikon information criterion (AIC) was applied.RESULTS: The results emphasized the importance of applying a statistical model that sufficiently captures the spread of the age estimate. The AIC values showed that some transitions were sufficiently described by glm whereas for others the gam curves fitted significantly better.CONCLUSION: We recommend that for an age assessment tool based on TA, both a fitting allowing for non-linearity and one allowing only for linearity should be included.

AB - INTRODUCTION: Age assessment based on dental development is often requested in order to assess whether an individual is older or younger than 18 years of age. There are several statistical approaches to estimate age based upon third molar development. The aim of this study was to apply the principles of transition analysis (TA) to a Danish reference material and to evaluate whether it was indicated to include a model that allows for logistic non-linearity as opposed to applying a model only allowing for logistic linearity. For this we chose to use the generalized additive model (gam) and the generalized linear model (glm), respectively.MATERIAL AND METHOD: A cross-sectional sample comprising 1302 panoramic radiographs of Danish subjects in the chronological age range of 13-25 years was included. All present third molars had been scored according to the 10-stage method of Gleiser and Hunt. Each transition from one stage to the subsequent stage was analyzed according to the statistical approach of TA and fitted with both the generalized linear model (glm) and the generalized additive model (gam). In order to assess whether gam or glm was more parsimonious for each transition individually, the Akaikon information criterion (AIC) was applied.RESULTS: The results emphasized the importance of applying a statistical model that sufficiently captures the spread of the age estimate. The AIC values showed that some transitions were sufficiently described by glm whereas for others the gam curves fitted significantly better.CONCLUSION: We recommend that for an age assessment tool based on TA, both a fitting allowing for non-linearity and one allowing only for linearity should be included.

U2 - 10.1016/j.forsciint.2020.110145

DO - 10.1016/j.forsciint.2020.110145

M3 - Journal article

C2 - 31972530

VL - 308

JO - Forensic Science International

JF - Forensic Science International

SN - 0379-0738

M1 - 110145

ER -

ID: 235003502